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  Extruder, specifically an extrusion welding deviceUSPTO Application #: 20060146642Title: Extruder, specifically an extrusion welding device Abstract: The invention concerns an extruder, specifically a hand-held extrusion welding device. For the purpose of degassing a synthetic material to be extruded that is already partially plasticized in the extruder, the invention proposes a thread-less area between two screw threads of an extruder screw. The compression of the synthetic material to be extruded expels gas from the synthetic material, the expelled gas flows against the feeding direction, and exits from the extruder at a feed opening. The extruder proposed by the invention offers the advantage of a complete, or at least an almost complete, degassing of the plasticized synthetic material. (end of abstract)
Agent: Mark D. Saralino (general) Renner, Otto, Boisselle & Sklar, LLP - Cleveland, OH, US Inventors: Christian Peters, Adolp Niederberger, Guiseppe Di Miceli USPTO Applicaton #: 20060146642 - Class: 366089000 (USPTO) Related Patent Categories: Agitating, Rubber Or Heavy Plastic Working, Stirrer Is Through-pass Screw Conveyor, Varying Diameter Of Shaft The Patent Description & Claims data below is from USPTO Patent Application 20060146642. Brief Patent Description - Full Patent Description - Patent Application Claims
TECHNICAL FIELD [0001] The invention concerns an extruder, specifically an extrusion welding device, with an extruder housing and a power-driven extruder screw rotating in the extruder housing. BACKGROUND OF THE INVENTION [0002] Such extruders, in particular in the shape of hand-held devices, are commonly used for welding thermoplastic synthetic materials. The extruder housing is usually of tubular shape with a circular cross-section. Essentially, the powered rotating extruder screw has the functions of feeding and compressing the synthetic material to be extruded, of homogenizing (mixing, kneading) and thereby plasticizing it, and of extruding it from a nozzle. Also, solid and liquid additives such as dyes and fillers, stabilizers and lubricants are mixed homogeneously with the synthetic material to be extruded by the powered rotation of the extruder screw. It is a familiar feature of extruder welding devices that the synthetic material to be extruded is supplied as a granulate or wire (plastic welding wire) and is plasticized in the extruder. Such a wire is also known as a (plastic) rope or strand. The supplied wire is commonly chopped into pieces before it is plasticized. The air in between the plastic pieces can be pulled into the synthetic material during the mixing, kneading, and plasticizing in the form of gas bubbles, which is undesirable and to be prevented. SUMMARY OF THE INVENTION [0003] The invention addresses the problem of proposing an extruder with a good degassing effect that avoids gas inclusions in the plasticized compound, or at least reduces them to a minimum. [0004] The invention solves this problem with the characteristics of claim 1. The extruder screw of the extruder proposed by the invention has two axially spaced screw threads. That means that the screw thread of the extruder screw is not continuous but that the extruder screw has a thread-less axial area between its screw threads. The thread-less area forms a buffer zone that serves as a storage space for the not yet completely plasticized compound, on the one hand, and as a degassing zone, on the other hand. Gas, in particular air, included in the synthetic material that is to be extruded but not completely plasticized yet, is expelled against the feeding direction from the synthetic material by the increasing compression of the not yet fully plasticized synthetic material, and flows from the thread-less buffer zone against the feeding direction of the extruder back to an inlet or feed opening for the synthetic material. In the area of the screw thread of the extruder screw that comes first in relation to the feeding direction, the synthetic material to be extruded is still present in the form of pieces that may already be partially plasticized and fused together. In the area of the screw thread of the extruder screw that comes first in relation to the feeding direction, the density of the synthetic material is still low enough to leave sufficient space between the synthetic material pieces for the air displaced in the buffer zone to escape against the feeding direction, i.e. towards the fill or feed end of the extruder. The buffer zone without a screw thread between the two screw threads of the extruder screw of the extruder proposed by the invention has the effect of degassing the synthetic material to be extruded against the feeding direction of the extruder. Gas inclusions in the plasticized synthetic material exiting from the extruder are avoided completely, or at least to a very large extent. [0005] Screw thread of the extruder screw, in the terms of the invention, means the screw thread serving to compress, homogenize, and plasticize, i.e. the actual extruder screw. It does not mean the--also screw-shaped--chopping threads or feeding threads that may be located in front of the extruder screw but do not serve for the actual extruding and plasticizing process. Preferably, the extruder screw consists of one piece, but may also be made of several pieces. [0006] Another advantage of the extruder screw proposed by the invention is that it allows the use of a simple extruder insert, also known as an extruder nozzle. With the extruder screw proposed by the invention, it is not necessary to use a special extruder insert with multiple deflection of the plasticized synthetic material, possibly even in radial direction, or to separate the plasticized synthetic material in the extruder into several strands by means of a perforated disk, etc. Such special extruder inserts are used in familiar extruders for homogenization, mixing, and pressurizing. Such special extruder inserts are chicanes for the plasticized synthetic material; they have dead zones, i.e. zones with low or zero feeding velocity of the plasticized synthetic material where the synthetic material gets caught for long periods and decomposes. Particles of decomposed synthetic material will then lead to faults in the extruded synthetic compound. [0007] In order to compress the compound to be extruded, one design variant of the invention provides for a gap between the extruder housing and a core of the extruder screw to become smaller in the feeding direction. With increasing plastification, the interstices between the initially solid pieces of the synthetic material to be extruded are reduced to zero, and gas is expelled from the increasingly plasticized synthetic material against the feeding direction. In a design variant of the invention, the gap becomes smaller in that area of the extruder screw that comes first in relation to the feeding direction and/or in the buffer zone between the two screw threads of the extruder screw. In the area of the extruder screw that comes last in relation to the feeding direction, the gap between the core of the extruder screw and the extruder housing remains constant because at this point, the gas inclusions have been expelled from the synthetic material and the synthetic material is not compressed any further. The reduction of the gap is achieved in simple fashion by means of an enlargement of the diameter of the core of the extruder screw. In the area of the extruder screw, the extruder housing may consist of a tube or a hollow cylinder, i.e. the extruder screw is located in a cylindrical hole in which it is caused to rotate. [0008] One design variant of the invention provides for a smoothing space in the extruder housing in feeding direction behind the extruder screw and in front of an extruder insert. Preferably, this smoothing space is free of inserts/obstructions. In this smoothing space, an expansion, mixing, and further homogenization of the synthetic material plasticized by the extruder screw takes place. In addition, the smoothing space has the function of a second storage that makes the exit of the plasticized compound from the extruder more uniform and further reduces the pulsation of the exiting synthetic material. [0009] One design variant of the invention provides for a simple extruder insert that tapers like a funnel in the feeding direction. Such an extruder insert that is easy to manufacture and avoids a complex flow path of the plasticized synthetic material, its separation into several strands, expansion in a gap, or similar features is made possible by the extruder screw proposed by the invention. The extruder insert offers favorable flow, minimizes shear forces, and reduces self-heating of the extruded synthetic material to a minimum. As an additional advantage, it has no dead zones where plasticied compound might collect and remain for long periods, and decompose. [0010] A development of this design variant provides for the extruder insert to have no dead zone in the area of its funnel-shaped taper. Thus, the extruder insert has no inserts, additions inside or ahead of it, and no undercuts etc. that might create, in feeding direction, a dead flow zone or a zone of turbulence behind them, i.e. a zone with reduced flow velocity and/or a long dwell time of the plasticized synthetic material. Specifically, a decrease to a low feed velocity dropping towards zero, and/or a long dwell time of the plasticized synthetic material in the funnel-shaped taper of the extruder insert is to be avoided because this poses the danger of a decomposition of the synthetic material. [0011] Specifically, the extruder proposed by the invention is intended to be a hand-held device, with the size and weight of an electric drill, for example, or of a hammer drill in case of a heavy-duty device. The outer shape of the extruder may also resemble that of an electric drill. [0012] Below, the invention is explained in detail with reference to the design variant shown in the figure. [0013] To the accomplishment of the foregoing and related ends, the invention, then, comprises the features hereinafter fully described and particularly pointed out in the claims. The following description and the annexed drawings set forth in detail certain illustrative embodiments of the invention. These embodiments are indicative, however, of but a few of the various ways in which the principles of the invention may be employed. Other objects, advantages and novel features of the invention will become apparent from the following detailed description of the invention when considered in conjunction with the drawings. BRIEF DESCRIPTION OF THE DRAWINGS [0014] FIG. 1 shows an extruder screw of an extruder proposed by the invention; [0015] FIG. 2 shows an axial cross section of an extruder insert of an extruder proposed by the invention; and [0016] FIG. 3 shows an axial cross section of an extruder proposed by the invention. DETAILED DESCRIPTION OF THE INVENTION [0017] Shown in the figure from left to right, i.e. in the feeding direction, the extruder screw 1 proposed by the invention and shown in FIG. 1 has a drive shaft 2, a feed screw 3, a chopping screw 4, and the actual extruder screw 5. The drive shaft 2 serves to rotate the extruder screw 1, may be cylindrical or conical, and is preferably designed with a profiled cross-section for a positive transfer of the rotary motion. For this purpose, various positive-lock shaft clutches are known that are not described in detail here. [0018] The feed screw 3 has a grooved screw thread with a sawtooth profile. Its purpose is to pull the synthetic material to be extruded. supplied in the shape of a wire (plastic welding wire, also known as rope or strand), into the extruder. [0019] The chopping screw 4 is double-threaded, extending over approximately one thread, i.e. it is relatively short axially, and has a steep pitch. At its front ends in feeding direction, the chopping screw 4 has cutters, cutting the synthetic material to be extruded that is supplied in wire form into pieces which it then conveys to the actual extruder screw 5. Continue reading... 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